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Discovering functionally important sites in proteins

Author

Listed:
  • Matteo Cagiada

    (University of Copenhagen)

  • Sandro Bottaro

    (University of Copenhagen)

  • Søren Lindemose

    (University of Copenhagen)

  • Signe M. Schenstrøm

    (University of Copenhagen)

  • Amelie Stein

    (University of Copenhagen)

  • Rasmus Hartmann-Petersen

    (University of Copenhagen)

  • Kresten Lindorff-Larsen

    (University of Copenhagen)

Abstract

Proteins play important roles in biology, biotechnology and pharmacology, and missense variants are a common cause of disease. Discovering functionally important sites in proteins is a central but difficult problem because of the lack of large, systematic data sets. Sequence conservation can highlight residues that are functionally important but is often convoluted with a signal for preserving structural stability. We here present a machine learning method to predict functional sites by combining statistical models for protein sequences with biophysical models of stability. We train the model using multiplexed experimental data on variant effects and validate it broadly. We show how the model can be used to discover active sites, as well as regulatory and binding sites. We illustrate the utility of the model by prospective prediction and subsequent experimental validation on the functional consequences of missense variants in HPRT1 which may cause Lesch-Nyhan syndrome, and pinpoint the molecular mechanisms by which they cause disease.

Suggested Citation

  • Matteo Cagiada & Sandro Bottaro & Søren Lindemose & Signe M. Schenstrøm & Amelie Stein & Rasmus Hartmann-Petersen & Kresten Lindorff-Larsen, 2023. "Discovering functionally important sites in proteins," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39909-0
    DOI: 10.1038/s41467-023-39909-0
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    References listed on IDEAS

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    1. Kai Wang & Jeremy A Horst & Gong Cheng & David C Nickle & Ram Samudrala, 2008. "Protein Meta-Functional Signatures from Combining Sequence, Structure, Evolution, and Amino Acid Property Information," PLOS Computational Biology, Public Library of Science, vol. 4(9), pages 1-13, September.
    2. Xianghua Li & Ben Lehner, 2020. "Biophysical ambiguities prevent accurate genetic prediction," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    3. Konrad J. Karczewski & Laurent C. Francioli & Grace Tiao & Beryl B. Cummings & Jessica Alföldi & Qingbo Wang & Ryan L. Collins & Kristen M. Laricchia & Andrea Ganna & Daniel P. Birnbaum & Laura D. Gau, 2020. "The mutational constraint spectrum quantified from variation in 141,456 humans," Nature, Nature, vol. 581(7809), pages 434-443, May.
    4. John A Capra & Roman A Laskowski & Janet M Thornton & Mona Singh & Thomas A Funkhouser, 2009. "Predicting Protein Ligand Binding Sites by Combining Evolutionary Sequence Conservation and 3D Structure," PLOS Computational Biology, Public Library of Science, vol. 5(12), pages 1-18, December.
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    Cited by:

    1. Rosario Vanella & Christoph Küng & Alexandre A. Schoepfer & Vanni Doffini & Jin Ren & Michael A. Nash, 2024. "Understanding activity-stability tradeoffs in biocatalysts by enzyme proximity sequencing," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. Martin Grønbæk-Thygesen & Vasileios Voutsinos & Kristoffer E. Johansson & Thea K. Schulze & Matteo Cagiada & Line Pedersen & Lene Clausen & Snehal Nariya & Rachel L. Powell & Amelie Stein & Douglas M., 2024. "Deep mutational scanning reveals a correlation between degradation and toxicity of thousands of aspartoacylase variants," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    3. Lene Clausen & Vasileios Voutsinos & Matteo Cagiada & Kristoffer E. Johansson & Martin Grønbæk-Thygesen & Snehal Nariya & Rachel L. Powell & Magnus K. N. Have & Vibe H. Oestergaard & Amelie Stein & Do, 2024. "A mutational atlas for Parkin proteostasis," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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